Megabodies expand the nanobody toolkit for protein structure determination by single-particle cryo-EM

Nanobodies (Nbs) are popular and versatile tools for structural biology because they have a compact single immunoglobulin domain organization. Nbs bind their target proteins with high affinities while reducing their conformational heterogeneity, and they stabilize multi-protein complexes. Here we demonstrate that engineered Nbs can also help overcome two major obstacles that limit the resolution of single-particle cryo-EM reconstructions: particle size and preferential orientation at the water-air interface. We have developed and characterised novel constructs, termed megabodies, by grafting Nbs into selected protein scaffolds to increase their molecular weight while retaining the full antigen binding specificity and affinity. We show that the megabody design principles are applicable to different scaffold proteins and recognition domains of compatible geometries and are amenable for efficient selection from yeast display libraries. Moreover, we used a megabody to solve the 2.5 [A] resolution cryo-EM structure of a membrane protein that suffers from severe preferential orientation, the human GABAA {beta}3 homopentameric receptor bound to its small-molecule agonist histamine.